A certain energy engineering company has achieved significant results in the research and development of "Deep Sea Wind Power Equipment Installation and Operation Technology", but faces the problem of insufficient demonstration of the combination of technological innovation and industrialization value when applying for the Energy Science and Technology Award. This technology achieves efficient installation of wind turbines over 5MW in waters with a depth of 30 meters through modular design of offshore wind power platforms and innovation of unmanned operation and maintenance systems, reducing operation and maintenance costs by 40%. It has been applied to three offshore wind farm projects, but the technical innovation points in the award materials are scattered and the intellectual property support is weak, resulting in a low ranking in the initial evaluation stage.

Our team conducted in-depth on-site research on the project and assisted in identifying three major technological breakthroughs: firstly, the development of a "dynamic positioning system for self elevating wind power installation platforms", which achieves a platform positioning accuracy of 0.5 meters and a 50% increase in installation efficiency through intelligent control algorithms; The second is to develop an "underwater inspection robot for wind power equipment" that can complete equipment inspection at a depth of 100 meters, with a detection coverage rate of 100%; The third is to build a "Deep Sea Wind Power Digital Twin Operation and Maintenance Platform" to achieve the integration of wind farm output prediction and equipment fault warning. In response to these innovations, we have compiled 30 intellectual property certificates, including 18 invention patents, 7 software copyrights, and 5 construction standards, forming a full chain evidence of "technology research and development patent protection standard formulation industrial application".

In terms of presenting results, guide enterprises to reconstruct materials according to the logic of "technical difficulties - innovative solutions - application effectiveness", focusing on presenting the actual value of technology in reducing the cost of offshore wind power (18% lower than traditional technology) and shortening the construction period (an average of 6 months shorter). At the same time, 25 supporting materials including acceptance opinions from the Energy Bureau and application reports from property owners were collected to strengthen the industry leadership of the results.

After system optimization, the project ultimately won the first prize for scientific and technological progress from the China Energy Research Association. After winning the award, the technology was listed as a key promoted technology by the Energy Bureau and applied in five far-reaching offshore wind power projects, creating a direct economic benefit of 1.2 billion yuan. Intellectual property layout helps enterprises establish technological barriers, gain significant advantages in bidding for offshore wind power projects, increase market share by 20%, and become a benchmark enterprise in the field of offshore wind power technology. The project leader stated, "The full chain layout of intellectual property rights fully demonstrates the value of technological innovation, and the professional sorting of award materials has earned our achievements the highest recognition in the industry